| *Graduate Advisee, +Undergraduate, #Post-doc, ^Student collaborator (not primary advisee) |
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[53] Yanites, B.J., Clark, M.K., Roering, J.J, West, A.J., Zekkos, D., Baldwin, J.W., Cerovski-Darriau, C., Gallen, S.F., Horton, D.E., Kirby, E., Leshchinsky, B.A., Mason, H.B., Moon, S., Barnhard, K.R., Booth, A., Czuba, J.A., McCoy, S., McGuire, L., Pfeiffer, A., Pierce, J. (2025). Cascading land surface hazards as a nexus in the Earth system. Science, 388(6754), DOI. |
[52] ^Morriss, M., *Mitchell, N.A., Yanites, B.J., Staisch, L. Korup, O. (2025). Cave records reveal recent origin of North America’s deepest canyon. Proceedings of the National Academy of Sciences, 122(21), DOI.
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[51] Cooke, M.L. , Crider, J.G., Morell, K.D., Karlstrom, L., Yanites, B.J. (2025) What is the Energy Budget of Subduction Zone Hazards?. Reviews of Geophysics. 63(2), DOI |
[50] #Marder, E., Smiley, T.M., Yanites, B.J., and #Kravitz, K. (2025). Direct effects of mountain uplift and topography on biodiversity. Science, 387(6740), 1287-1291. |
[49] *DeLisle, C., and Yanites, B.J., 2024, Modeling Climate and Tectonic Controls on Bias in Measured River Incision Rates: Geophysical Research Letters, v. 51, p. e2024GL109339, DOI. |
[48] #Doane, T.H., ^Gearon, J.H., ^Martin, H.K., Yanites, B.J., and Edmonds, D.A., 2024, Topographic Roughness as an Emergent Property of Geomorphic Processes and Events: AGU Advances, v. 5, p. e2024AV001264, DOI. |
[47] ^Martin, H.K., Edmonds, D.A., Yanites, B.J., and Niemi, N.A., 2024, Quantifying landscape change following catastrophic dam failures in Edenville and Sanford, Michigan, USA: Earth Surface Processes and Landforms, v. 49, p. 2767–2778, DOI. |
[46] ^Penserini, B.D., Morell, K.D., Codilean, A.T., Fülöp, R.-H., Wilcken, K.M., Yanites, B.J., Kumar, A., Fan, S., and Mearce, T., 2024, Magnitude and timing of transient incision resulting from large-scale drainage capture, Sutlej River, Northwest Himalaya: Earth Surface Processes and Landforms, v. 49, p. 334–353, DOI. |
[45] #Schanz, S.A., and Yanites, B.J., 2024, Reconciling Rapid Glacial Erosion and Steady Basin Accumulation Rates in the Late Cenozoic Through the Effect of Glacial Sediment on Fluvial Erosion: Journal of Geophysical Research: Earth Surface, v. 129, p. e2024JF007721, DOI. |
[44] ^Zhou, Y., Liu, W., Yanites, B.J., Zhou, L., Li, X., and Yang, Z., 2024, Transient geomorphic response after landslide-induced river damming in the eastern margin of the Tibetan plateau: CATENA, v. 246, p. 108382. |
[43] *DeLisle, C., and Yanites, B.J. (2023) Rethinking variability in bedrock rivers: Sensitivity of hillslope sediment supply to precipitation events modulates bedrock incision during floods. Journal of Geophysical Research: Earth Surface, DOI |
[42] #Doane, T.H., Yanites, B.J., Edmonds, D.A., and Novick, K.A. (2023). Hillslope roughness reveals forest sensitivity to extreme winds. Proceedings of the National Academy of Sciences, 120(3), DOI |
[41] *Mitchell, N., B.J. Yanites, A. Duvall, E. Humphreys, ^J. Perry-Houts, ^P. Schoettle-Greene, ^S. Williams (2023). Late Miocene or older canyon incision in the northern U.S. Cordillera shown by erosion rates, incision models, and basalt flow ages. GSA Bulletin. |
[40] *Larimer, J.E., Yanites, B.J., and Jung, S.J. (2022). A Field Study on the Lithological Influence on the Interaction Between Weathering and Abrasion Processes in Bedrock Rivers. Journal of Geophysical Research: Earth Surface, 127(4), DOI |
[39] *DeLisle, C., Yanites, B.J., Chen, C.Y., Shyu, B.H. and Rittenour, T.M., 2022. Extreme event-driven sediment aggradation and erosional buffering along a tectonic gradient in southern Taiwan. Geology. |
[38] Naylor, S., Wickert, A.D., Edmonds, D.A., and Yanites, B.J. (2021). Landscape evolution under the southern Laurentide Ice Sheet. Science advances, 7(48), DOI.
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[37] ^Aron, P.G., Poulsen, C.J., ^Fiorella, R.P., Levin, N.E., Acosta, R.P., Yanites, B.J., et al. (2021). Variability and controls on δ18O, d-excess, and ∆′17O in southern Peruvian precipitation. Journal of Geophysical Research: Atmospheres, 126, e2020JD034009. DOI |
[36] #Doane, T.H., Edmonds, D., Yanites, B.J., and #Lewis, Q. (2021). Topographic roughness on forested hillslopes: a theoretical approach for quantifying hillslope sediment flux from tree throw. Geophysical Research Letters, 48(20), DOI. |
[35] ^Hu, K., Wu, C., Wei, L., Zhang, X., Zhang, Q., Liu, W. and Yanites, B.J., 2021. Geomorphic effects of recurrent outburst superfloods in the Yigong River on the southeastern margin of Tibet. Scientific Reports, 11(1), pp.1-11. |
[34] *Mitchell, N.A. and Yanites, B.J., 2021. Bedrock river erosion through dipping layered rocks: quantifying erodibility through kinematic wave speed. Earth Surface Dynamics, 9(4), pp.723-753. |
[33] Liu, W., Zhou, Z., Zhou, L., Xiaoqing, C.H.E.N., Yanites, B., Zhou, Y., Li, X. and Zhang, X., 2021. Analysis of Hillslope Erosion Based on Excess Topography in Southeastern Tibet. Frontiers in Earth Science, 9, p.573. |
[32] *Larimer, J.E., Yager, E.M., Yanites, B.J., and ^Witsil, A.J. (2021). Flume Experiments on the Erosive Energy of Bed Load Impacts on Rough and Planar Beds. Journal of Geophysical Research: Earth Surface, 126(4), DOI. |
[31] *Armstrong, I.P., Yanites, B.J., *Mitchell, N., *DeLisle, C., and Douglas, B.J. (2021) Quantifying normal fault evolution from river profile analysis in the Northern Basin and Range province, Southwest Montana, USA. Lithosphere, (1), 7866219. |
[30] ^Shen, H., *Lynch, B., Poulsen, C.J., and Yanites, B.J. (2021). A modeling framework (WRF-Landlab) for simulating orogen-scale climate-erosion coupling. Computers & Geosciences, 104625. |
[29] #Lewis, Q.W., Edmonds, D.A., and Yanites, B.J. (2020). Integrated UAS and LiDAR reveals the importance of land cover and flood magnitude on the formation of incipient chute holes and chute cutoff development. Earth Surface Processes and Landforms. |
[28] *Mitchell, N., and Yanites, B. (2019). Spatially variable increase in rock uplift in the northern US Cordillera recorded in the distribution of river knickpoints and incision depths. Journal of Geophysical Research: Earth Surface. DOI |
[27] *Sorensen, C.S. and Yanites, B.J., 2019. Latitudinal trends in modern flucial erosional efficiency along the Andes. Geomorphology 329:170-183. |
[26] *Larimer, J. E., Yanites, B.J., Phillips, W., and Mittelstaedt, E. 2018. Late Miocene rejuvenation of central Idaho landscape evolution: A case for surfact processes driven by plume-lithosphere interaction. Lithosphere 11(1):59-72. |
[25] Yanites, B.J. 2018. The dynamics of channel slope, width, and sediment in actively eroding bedrock river systems. Journal of Geophysical Research: Earth Surface 123. DOI |
[24] Yanites, B.J., *Mitchell, N.A., *Bregy, J.C., +Carlson, G.A., ^Cataldo, K., +Holahan, M., ^Johnston, G.H., +Nelson, A., ^Valenza, J. and ^Wanker, M. 2018. Landslides control the spatial and temporal variation of channel width in southern Taiwan: Implications for landscape evolution and cascading hazards in steep, tectonically active landscapes. Earth Surface Processes and Landforms. DOI |
[23] Fremier, A.K., Yanites, B.J. and Yager, E.M. 2018. Sex that moves mountains: The influence of spawning fish on river profiles over geologic timescales. Geomorphology. DOI |
[22] ^Dhingra, R.D., Barnes, J.W., Yanites, B.J., Kirk, R.L. 2018. Large catchment area recharges Titan’s Ontario Lacus. Icarus 299: 331-338. DOI |
[21] Yanites, B.J., Becker, J.K., Madritsch, H., Schnellmann, M., and Ehlers, T.A. 2017. Lithologic effects on landscape response to base level changes: a modeling study in the context of the eastern Jura Mountains, Switzerland. Journal of Geophysical Research:Earth Surface 122. DOI |
[20] Badgley, C., Smiley, T.M., Davis, E.B., DeSantis, L.R.G., Fox, D.L., Hopkins, S.B., Jezkova, T., Matocq, M.D., Matzke, N., McGuire, J.L., Mulch, A., Riddle, B.R., Roth, V.L., Samuels, J.X., Stromberg, C.A.E., Terry, R., Yanites, B.J. 2017. Biodiversity and Topographic Complexity: Modern and Geohistorical Perspectives. Trends in Ecology & Evolution 32(3): 211-226. DOI |
[19] Yanites, B.J. and Ehlers, T.A. 2016. Intermittent glacial sliding velocities explain long-timescale variations in denudation, SW British Columbia. Earth and Planetary Science Letters. DOI |
[18] Forte, A.M., Yanites, B.J., and Whipple, K.X. 2016. Complexities of landscape evolution during incision through layered stratigraphy with contrasts in rock strength. Earth Surf. Process. Landforms. DOI |
[17] Ehlers, T.A., ^Szameitat, A., Enkelmann, E., Yanites, B.J. and Woodsworth, G.J. 2015. Identifying spatial variations in glacial catchment erosion with detrital thermochronology. J. Geophys. Res. Earth Surf. 120:1023–1039. DOI |
[16] Yanites, B.J. and Kesler, S.E. 2015. A climate signal in exhumation patterns revealed by porphyry copper deposits. Nature Geoscience, 8(6):462-465. |
[15] ^Jeffery, M.L., Yanites, B.J., Poulsen, C.J. and Ehlers, T.A. 2014. Vegetation-precipitation controls on Central Andean topography, J. Geophys. Res. Earth Surf. 119. DOI |
[14] Wilcox, T., Mueller, K., Upton, P., Powell, L.K., Chen, Y.G., Huang, S.T., Yanites, B.J. and Tucker, G. 2013. Structural inheritance and erosional controls on thrust kinematics in western Taiwan. Geosphere. DOI |
[13] Yanites, B.J., Ehlers, T.A., Becker, J.E., Schnellman, M. and Heuberger, S. 2013. High magnitude and rapid incision from river capture: Rhine River, Switzerland. J. Geophys. Res. Earth Surf. 118. DOI |
[12] ^Jeffery, M.L., Ehlers, T.A., Yanites, B.J. and Poulsen, C.J. 2013. Quantifying the role of paleoclimate and Andean Plateau uplift on river incision. J. Geophys. Res. Earth Surf, 40. DOI |
[11] Yanites, B.J. and Ehlers, T.A. 2012. Global climate and tectonic controls on the denudation of glaciated mountains. 325-326:63-75. DOI |
[10] Yanites, B.J., Tucker, G.E., Hsu, H.L., Chen, C.C., Chen, Y.G. and Mueller, K.J. 2011. The influence of sediment cover variability on long term incision rates: an example from the Peikang River, central Taiwan. JGR-Earth Surface 116, F03016. DOI |
[9] Wilcox, T., Mueller, K., Upton, P., Chen, Y.-G., Huang, S.-T., Yanites, B. and Tucker, G. 2011. Linking Taiwan’s Subcritical Hsueshan Range Topography and Foreland Basin Architecture. Tectonics 30, TC4011. DOI |
[8] Yanites, B.J. and Tucker, G.E. 2010. Controls and limits on bedrock channel geometry. J. Geophys. Res. 115, F04019, DOI |
[7] Yanites, B.J., Tucker, G.E., Mueller, K.J. and Chen, Y.G. 2010. How rivers react to large earthquakes: evidence from central Taiwan. Geology 38(7):639-642. DOI |
[6] Yanites, B.J., Tucker, G.E., Mueller, K.J., Chen, Y.G., Wilcox, T., Huang, S.Y. and Shi, K.W. 2010. Incision and channel morphology across active structures along the Peikang River, central Taiwan: Implications for the importance of channel width. I, 122, n7-8 (1192-1208). DOI |
[5] Hsu, H.L., Yanites, B.J., Chen, C.C. and Chen, Y.G. 2010. Bedrock detection using 2D electrical resistivity imaging along the Peikang River, central Taiwan. Geomorphology 114(3);406-414. DOI |
[4] Yanites B.J., Tucker, G.E. and Anderson, R.S. 2009. Numerical and analytical models of cosmogenic radionuclide dynamics in landslide-dominated drainage basins. J. Geophys. Res. 114, F01007. DOI |
[3] Pelletier, J.D., DeLong, S., Al Suwaidi, A.H., Cline, M., Lewis, Y., Psillas, J.L. and Yanites, B. 2006. Evolution of the Bonneville shoreline scarp in west-central Utah: Comparison of scarp-analysis methods and implications for the diffusion model of hillslope evolution. Geomorphology, 74:1-4. DOI |
[2] Yanites B.J., R.H. Webb, P.G. Griffiths, C.S. Magirl (2006), Debris flow deposition and reworking by the Colorado River in Grand Canyon, Arizona, Water Resources Research, 42, W11411. DOI |
[1] Norman, Laura M., Gishey, Michael, Gass, Leila, Yanites, Brian, Pfeifer, Edwin, Simms, Ron, and Ahlbrant, Ray, 2006. "Processed 1938 Aerial Photography for Selected Areas of the Lower Colorado River, Southwestern United States": U.S. Geological Survey Open File Report 2006-1141 |
